EP3389281B1 - Systèmes et procédés de fourniture de contenu - Google Patents

Systèmes et procédés de fourniture de contenu Download PDF

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Publication number
EP3389281B1
EP3389281B1 EP18167540.6A EP18167540A EP3389281B1 EP 3389281 B1 EP3389281 B1 EP 3389281B1 EP 18167540 A EP18167540 A EP 18167540A EP 3389281 B1 EP3389281 B1 EP 3389281B1
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Prior art keywords
frame
interest
user
projection
region
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German (de)
English (en)
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EP3389281A1 (fr
Inventor
Evgeny V. Kuzyakov
Renbin Peng
Chien-Nan Chen
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Meta Platforms Inc
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Facebook Inc
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Priority claimed from US15/953,164 external-priority patent/US10579898B2/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N21/00Selective content distribution, e.g. interactive television or video on demand [VOD]
    • H04N21/80Generation or processing of content or additional data by content creator independently of the distribution process; Content per se
    • H04N21/81Monomedia components thereof
    • H04N21/816Monomedia components thereof involving special video data, e.g 3D video
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N19/00Methods or arrangements for coding, decoding, compressing or decompressing digital video signals
    • H04N19/10Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using adaptive coding
    • H04N19/134Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using adaptive coding characterised by the element, parameter or criterion affecting or controlling the adaptive coding
    • H04N19/167Position within a video image, e.g. region of interest [ROI]

Definitions

  • the present technology relates to the field of content provisioning. More particularly, the present technology relates to techniques for evaluating content to be presented through computing devices.
  • content items e.g., images, videos, audio files, etc.
  • the content items can be provided, or uploaded, by various entities including, for example, content publishers and also users of the content sharing platform.
  • CN 106 060 515 A discloses a panoramic media file push method and apparatus.
  • the method includes the steps of acquiring a to-be-pushed panoramic media file, wherein the panoramic media file includes one or more panoramic image frames; dividing each panoramic image frame according to a preset condition, wherein each divided panoramic image frame includes multiple view regions; acquiring a central view region on the multiple view re-gions of each panoramic image frame, wherein an area occupied by the cen-tral view region is greater than or equal to an area occupied by one view re-gion; coding the panoramic image frame according to the central view region; and pushing the coded panoramic image frame.
  • a panoramic media file push method and device Disclosed in WO 2018/010653 A1 are a panoramic media file push method and device.
  • the method comprises obtaining a panoramic media file to be pushed, the panoramic media file comprising at least one panoramic image frame; dividing each panoramic image frame into multiple view regions according to a preset condition; obtaining a first central view region on the multiple view regions of each panoramic image frame, a region occupied by the first central view region being larger than or equal to a region occupied by one view region; coding the panoramic image frame according to the first cen-tral view region; and pushing the coded panoramic image frame.
  • an information processing device and an in-formation processing method are provided that make it possible to determine an appropriate camera work to be recommended to a user.
  • the information processing device determines a display frequency for each region including one or more pixels in an image frame at each playback position of a video, based on a display range indicated by each of a plurality of pieces of pseudo camera work data stored in a storage device, each of the plurality of pieces of pseudo camera work data indicating the display range to be displayed on a display means within a corresponding one of image frames constituting the video at a specific playback position of the video, the display range being var-iable depending on each playback position of the video.
  • the present invention provides a computer-implemented method according to claim 1, a system according to claim 3 and a non-transitory computer-readable storage medium according to claim 8. Further improvements are provided in the dependent claims.
  • the present invention is directed to systems, methods, and non-transitory computer readable media configured to provide at least one frame of a content item to a saliency prediction model, the saliency prediction model being trained to identify salient points of interest that appear in content items; obtain information describing at least a first salient point of interest that appears in the at least one frame from the saliency prediction model, wherein the first salient point of interest is predicted to be of interest to users accessing the content item; and apply a view-based projection to a region corresponding to the first salient point of interest, wherein the view-based projection enhances a quality in which the region is presented.
  • the systems, methods, and non-transitory computer readable media are configured to obtain a saliency map for the at least one frame; determining a vector-based representation of the saliency map; determine an offset corresponding to the at least one frame based at least in part on the vector-based representation; and enhance the region corresponding to the first salient point of interest based at least in part on the determined offset.
  • the vector-based representation includes a set of yaw bins and a set of pitch bins, and wherein each bin is associated with a pre-defined vector and a corresponding magnitude.
  • the systems, methods, and non-transitory computer readable media are configured to determine a spherical representation of the at least one frame, the spherical representation including a virtual camera positioned at a center of the spherical representation; determine a displacement for the virtual camera based at least in part on the offset; and determine an amount of pixels to allocate for the region based at least in part on the displacement of the virtual camera.
  • the region is enhanced by increasing a pixel density corresponding to the region.
  • respective pixel densities for one or more other regions of the at least one frame are decreased in proportion to the displacement of the virtual camera.
  • a total pixel count associated with the at least one frame remains unchanged.
  • Various embodiments of the present disclosure can include systems, methods, and non-transitory computer readable media are configured to determine at least one salient point of interest in a frame of a content item based at least in part on a saliency prediction model, the saliency prediction model being trained to identify salient points of interest that appear in content items; determine a barrel projection representation for the frame; and apply a view-based projection to the barrel projection representation for the frame, wherein the view-based projection enhances a quality in which a region corresponding to the at least one salient point of interest is presented.
  • the barrel projection includes separate faces corresponding to a top portion of the frame, a bottom portion of the frame, and a middle portion of the frame.
  • the middle portion of the frame represents a middle 90 degrees of a scene represented in the frame.
  • the systems, methods, and non-transitory computer readable media are configured to bias a region in the middle portion of the frame that corresponds to the at least one salient point of interest, wherein the region is biased to increase a pixel density associated with the region.
  • the region is stretched horizontally by a threshold amount.
  • the systems, methods, and non-transitory computer readable media are configured to bias one or more other regions in the middle portion of the frame, wherein the one or more regions are biased to decrease respective pixel densities associated with the one or more regions.
  • the one or more regions are shortened horizontally by a threshold amount.
  • a user can utilize a computing device to share content items (e.g., documents, images, videos, audio, etc.) with other users.
  • content items e.g., documents, images, videos, audio, etc.
  • Such content items can be made available through a content sharing platform. Users can operate their computing devices to access the content items through the platform.
  • the content items can be provided, or uploaded, by various entities including, for example, content publishers and also users of the content sharing platform.
  • a user can access virtual reality content through a content provider.
  • virtual reality content can be presented, for example, in a viewport that is accessible through a computing device (e.g., a virtual reality device, headset, or any computing device capable of presenting virtual reality content).
  • a virtual reality content item (or immersive video) corresponds to any virtual reality media that encompasses (or surrounds) a viewer (or user).
  • virtual reality content items include spherical videos, half sphere videos (e.g., 180 degree videos), arbitrary partial spheres, 225 degree videos, and 3D 360 videos.
  • Such virtual reality content items need not be limited to videos that are formatted using a spherical shape but may also be applied to immersive videos formatted using other shapes including, for example, cubes, pyramids, and other shape representations of a video recorded three-dimensional world.
  • a virtual reality content item can be created by stitching together various video streams (or feeds) that were captured by cameras that are placed at particular locations and/or positions to capture a view of the scene (e.g., 180 degree view, 225 degree view, 360 degree view, etc.). Once stitched together, a user can access, or present (e.g., playback), the virtual reality content item.
  • a content item e.g., virtual reality content item, immersive video, spherical video, etc.
  • scenes may capture scenes that include various points of interest (e.g., persons, objects, landscapes, etc.).
  • conventional models e.g., neural network
  • a saliency prediction model can be trained to identify content that is likely to be of interest to users (e.g., salient points of interest) during presentation of a given content item.
  • the content predicted by the saliency prediction model is expected to be more relevant, or interesting, to a given user or group of users (e.g., users sharing one or more demographic attributes).
  • these salient points of interest can be used to improve the delivery (or streaming) of the content item.
  • saliency information outputted by the saliency prediction model can be used to implement dynamic streaming.
  • a content item may be associated with a number of different streams in which different parts of frames are enhanced (or emphasized).
  • the stream to be presented depends on a view direction of a viewer's computing device (e.g., virtual reality device).
  • the saliency information can be used to implement content-dependent streaming.
  • regions in frames that include salient points of interest can be emphasized and distributed as a single stream.
  • enhancement (or emphasis) of content can be achieved using view-based projection.
  • the saliency information can be used to implement a view-based projection that emphasizes one view (e.g., a most relevant, interesting view) among many potential views in a content item (or frame) without changing (e.g., increasing) a total pixel count associated with the content item (or frame).
  • a view-based projection that emphasizes one view (e.g., a most relevant, interesting view) among many potential views in a content item (or frame) without changing (e.g., increasing) a total pixel count associated with the content item (or frame).
  • FIGURE 1 illustrates an example system 100 including an example content provider module 102, according to an embodiment of the present disclosure.
  • the content provider module 102 can include a content module 104, a streaming module 106, and a content features module 108.
  • the example system 100 can include at least one data store 112.
  • a client module 114 can interact with the content provider module 102 over one or more networks 150 (e.g., the Internet, a local area network, etc.).
  • the client module 114 can be implemented in a software application running on a computing device (e.g., a virtual reality device, headset, or any computing device capable of presenting virtual reality content).
  • the network 150 can be any wired or wireless computer network through which devices can exchange data.
  • the network 150 can be a personal area network, a local area network, or a wide area network, to name some examples.
  • the components (e.g., modules, elements, etc.) shown in this figure and all figures herein are exemplary only, and other implementations may include additional, fewer, integrated, or different components. Some components may not be shown so as not to obscure relevant details.
  • the content provider module 102 can be implemented, in part or in whole, as software, hardware, or any combination thereof.
  • a module as discussed herein, can be associated with software, hardware, or any combination thereof.
  • one or more functions, tasks, and/or operations of modules can be carried out or performed by software routines, software processes, hardware, and/or any combination thereof.
  • the content provider module 102 can be implemented, in part or in whole, as software running on one or more computing devices or systems, such as on a user computing device or client computing system.
  • the content provider module 102 can be implemented as or within an application (e.g., app), a program, or an applet, etc., running on a user computing device or a client computing system, such as the user device 610 of FIGURE 6 .
  • the content provider module 102, or at least a portion thereof can be implemented using one or more computing devices or systems that include one or more servers, such as network servers or cloud servers.
  • the content provider module 102 can, in part or in whole, be implemented within or configured to operate in conjunction with a social networking system (or service), such as the social networking system 630 of FIGURE 6 . It should be understood that there can be many variations or other possibilities.
  • the content provider module 102 can be configured to communicate and/or operate with the at least one data store 112 in the example system 100.
  • the at least one data store 112 can store data relevant to the function and operation of the content provider module 102.
  • One example of such data can be content items (e.g., virtual reality content items) that are available for access (e.g., streaming).
  • the at least one data store 112 can store information associated with the social networking system (e.g., the social networking system 630 of FIGURE 6 ).
  • the information associated with the social networking system can include data about users, social connections, social interactions, locations, geo-fenced areas, maps, places, events, pages, groups, posts, communications, content, feeds, account settings, privacy settings, a social graph, and various other types of data.
  • the at least one data store 112 can store information associated with users, such as user identifiers, user information, profile information, user specified settings, content produced or posted by users, and various other types of user data. It should be appreciated that there can be many variations or other possibilities.
  • the content module 104 can provide access to various types of content items (e.g., virtual reality content items, immersive videos, etc.) to be presented through a viewport.
  • This viewport may be provided through a display of a computing device (e.g., a virtual reality computing device) in which the client module 114 is implemented, for example.
  • the computing device may be running a software application (e.g., social networking application) that is configured to present content items.
  • a software application e.g., social networking application
  • Some examples of virtual reality content can include videos composed using monoscopic 360 degree views or videos composed using stereoscopic 180 degree views, to name some examples.
  • virtual reality content items can capture views (e.g., 180 degree views, 225 degree views, 360 degree views, etc.) of one or more scenes over some duration of time. Such scenes may be captured from the real world and/or be computer generated.
  • a virtual reality content item can be created by stitching together various video streams (or feeds) that were captured by cameras that are placed at particular locations and/or positions to capture a view of the scene. Such streams may be pre-determined for various directions, e.g., angles (e.g., 0 degree, 30 degrees, 60 degrees, etc.), accessible in a virtual reality content item.
  • a user can access, or present, the virtual reality content item to view a portion of the virtual reality content item along some direction (or angle).
  • the portion of the virtual reality content item (e.g., stream) shown to the user can be determined based on techniques for dynamic streaming.
  • the virtual reality content item may include only one corresponding stream in which different portions are emphasized based on techniques for content-dependent streaming. Many variations are possible.
  • the computing device in which the client module 114 is implemented can request presentation of a virtual reality content item (e.g., spherical video).
  • the streaming module 106 can provide one or more streams of the virtual reality content item to be presented through the computing device.
  • the stream(s) provided will typically correspond to a direction of the viewport in the virtual reality content item being accessed.
  • the client module 114 can continually provide the content provider module 102 with information describing the direction at which the viewport is facing.
  • the streaming module 106 can use this information to determine which stream to provide the client module 114.
  • the streaming module 106 can provide a stream associated with the virtual reality content item to be presented through the computing device. As mentioned, different regions (or parts) of this stream can be emphasized based on saliency information.
  • the content features module 108 provides a number of different features for enhancing the presentation of content items.
  • the content features module 108 can generate a saliency prediction model that can be used to identify salient points of interest in a given content item.
  • the content features module 108 can use the identified salient points of interest to improve the presentation of the content item. More details describing the content features module 108 will be provided below in reference to FIGURE 2 .
  • FIGURE 2 illustrates an example of a content features module 202, according to an embodiment of the present disclosure.
  • the content features module 108 of FIGURE 1 can be implemented with the content features module 202.
  • the content features module 202 can include a training content module 204, a view tracking data module 206, a heat map data module 208, a saliency module 210, and a view-based projection module 212.
  • the training content module 204 can be configured to obtain content items to be used for training one or more models (e.g., saliency prediction models).
  • content items may include videos (e.g., virtual reality content items, immersive videos, etc.).
  • a virtual reality content item (or immersive video) corresponds to any virtual reality media that encompasses (or surrounds) a viewer (or user).
  • virtual reality content items include spherical videos, half sphere videos (e.g., 180 degree videos), arbitrary partial spheres, 225 degree videos, and 3D 360 videos.
  • Such virtual reality content items need not be limited to videos that are formatted using a spherical shape but may also be applied to immersive videos formatted using other shapes including, for example, cubes, pyramids, and other shape representations of a video recorded three-dimensional world.
  • the content items obtained by the training content module 204 can vary depending on the type of model being trained.
  • a general saliency prediction model may be trained using various unrelated content items that were created by various publishers and corresponding heat map data for those content items.
  • heat map data for a given content item may be generated based on view tracking data for the content item, as described below.
  • This general saliency prediction model can be used to determine salient points of interest in various types of content items.
  • a publisher-specific saliency prediction model may be trained using content items that were posted by a given publisher (e.g., content creator) and corresponding heat map data for those content items.
  • This publisher-specific saliency prediction model can be used to determine salient points of interest in content that is subsequently posted by that publisher in which salient points of interest are not initially known.
  • a category-specific saliency prediction model may be trained using content items that all correspond to a given category (e.g., genre, topic, interest, etc.) and corresponding heat map data for those content items. This category-specific saliency prediction model can be used to determine salient points of interest in new content items that correspond to the given category.
  • the view tracking data module 206 can be configured to obtain respective view tracking data for each of the content items being used to train the models. For example, view tracking data for a given content item may be collected for each user (or viewer) that has accessed the content item. The view tracking data for a user may identify regions that were accessed through the user's viewport during presentation of the content item. Such view tracking data may be collected for each frame corresponding to the content item. In some embodiments, a user's view tracking data for a content item can be determined based on changes to the user's viewport during presentation of the content item. Such changes to the viewport may be measured using various approaches that can be used either alone or in combination.
  • changes to the viewport may be measured using sensor data (e.g., gyroscope data, inertial measurement unit data, etc.) that describes movement of the computing device being used to present the content item.
  • changes to the viewport can be measured using gesture data describing the types of gestures (e.g., panning, zooming, etc.) that were performed during presentation of the content item.
  • Some other examples for measuring changes to the viewport include using input device data that describes input operations (e.g., mouse movement, dragging, etc.) performed during presentation of the content item, headset movement data that describes changes in the viewport direction during presentation of the content item, and eye tracking data collected during presentation of the content item, to name some examples.
  • the heat map data module 208 can be configured to generate (or obtain) heat maps for each of the content items being used to train the models.
  • heat maps for a given content item may be generated based on view tracking data for the content item.
  • the view tracking data module 206 can obtain respective view tracking data for users that viewed a content item. Each user's view tracking data can indicate which regions of a given frame (or set of frames) were accessed using a user's viewport during presentation of a content item. That is, for any given frame in the content item, the heat map data module 208 can generate (or obtain) user-specific heat maps that graphically represent regions in the frame that were of interest to a given user.
  • heat maps can be generated for a set of frames that correspond to some interval of time. For example, a respective heat map can be generated for every second of the content item.
  • user-specific heat maps for a given content item can be combined to generate aggregated heat maps that represent aggregated regions of interest in frames corresponding to the content item.
  • the respective user-specific heat maps can be aggregated on a frame-by-frame basis so that each frame of the content item is associated with its own aggregated heat map that identifies the regions of interest in the frame.
  • These regions of interest can correspond to various points of interest that appear in frames and were determined to be of interest to some, or all, of the users that viewed the content item.
  • these regions of interest can correspond to various points of interest that appear in frames and were determined to be of interest to users sharing one or more common characteristics with the user who is to view the content item.
  • the saliency module 210 can be configured to train a saliency prediction model.
  • the saliency prediction model can be used to identify content (e.g., points of interest) that is likely to be of interest to a given user accessing a content item in which the identified content appears. For example, the saliency prediction model can determine that a first point of interest which appears in a given frame of a content item is likely to be of interest to a user over a second point of interest that also appears in the frame.
  • the saliency prediction model is trained using the content items that were obtained by the training content module 204 and their respective aggregated heat maps.
  • each frame of a content item and its corresponding aggregated heat map can be provided as a training example to the saliency prediction model.
  • the saliency prediction model is trained using aggregated heat map data that has been labeled to identify points of interest.
  • the aggregated heat map can be used to identify regions of the frame that were viewed more than others.
  • Such view activity can be represented in the aggregated heat map using various shapes that describe the size of the view region and/or colors that indicate concentrations of view activity in any given region of the frame. Based on this information, the saliency prediction model can learn which pixels in the frame were interesting (or relevant) to users in the aggregate.
  • pixels in the frame that fall within the shapes and/or colors represented in the aggregated heat map can be identified as being interesting (or relevant) to users in the aggregate. In some embodiments, these pixels correlate to points of interest that appear in frames.
  • the saliency prediction model can learn which points of interest appearing in a frame were of interest to users in the aggregate with respect to other points of interest that also appear in the frame. Once trained, the saliency prediction model can be used to identify content (e.g., points of interest) that is likely to be of interest in new content items. In some embodiments, the saliency prediction model can be used to predict salient points of interest for stored content items (e.g., video on-demand).
  • the saliency prediction model can be used to predict salient points of interest (e.g., points of interest that are likely to be of interest) for live content items (e.g., live video broadcasts).
  • the saliency prediction model can be trained to output corresponding saliency maps for content items.
  • the saliency prediction model can output a corresponding saliency map for each frame of a content item.
  • a saliency map for a given frame can assign a respective saliency value for each pixel in the frame. The saliency value for a pixel can provide a measure of saliency associated with that pixel.
  • heat map data used to generate the saliency prediction model, aggregated or otherwise need not be actual heat maps that are represented graphically but may instead be some representation of view tracking data.
  • the heat map data may identify clusters of view activity within individual frames of content items.
  • the clusters of view activity that are identified from heat map data can be used independently to identify salient points of interest in various content items.
  • heat map data identifying clusters of view activity in frames during a live video broadcast e.g., over the past n seconds of the broadcast
  • the view-based projection module 212 can use saliency information to selectively enhance (or emphasize) content (or portions of content) during presentation. More details describing the view-based projection module 212 will be provided below in reference to FIGURE 3 .
  • FIGURE 3 illustrates an example of a view-based projection module 300, according to an embodiment of the present disclosure.
  • the view-based projection module 212 of FIGURE 2 can be implemented with the view-based projection module 300.
  • the view-based projection module 300 can include a frame module 302, a saliency map module 304, a vectorization module 306, and a projection module 308.
  • the frame module 302 can be configured to obtain a frame of a content item being enhanced based on view-based projection.
  • the view-based projection module 300 can enhance (or emphasize) regions in frames of the content item using the view-based projection techniques described herein.
  • the saliency map module 304 can be configured to obtain a saliency map for the frame of the content item being enhanced. As mentioned, such saliency maps can be determined based on information generated by the saliency prediction model.
  • the saliency map for the frame can indicate a respective saliency value for each pixel in the frame.
  • the saliency value for a pixel provides a measure of saliency associated with that pixel.
  • the vectorization module 306 can determine a respective vector-based representation of the frame. For example, in some embodiments, the vectorization module 306 can segment the saliency map corresponding to the frame into a set of bins. For example, the saliency map can be segmented into a set of yaw bins (e.g., 32 yaw bins) and a set of pitch bins (e.g., 16 pitch bins). In such embodiments, each bin can be associated with its own corresponding vector and magnitude. For example, in some embodiments, the set of yaw bins can each be associated with a pre-defined vector direction that ranges from negative 180 degrees to positive 180 degrees.
  • the set of pitch bins can each be associated with a pre-defined vector direction that ranges from negative 180 degrees to positive 180 degrees.
  • the vectorization module 306 can determine a net vector and magnitude based on the vector-based representation of the saliency map. For example, in some embodiments, the vectorization module 306 can determine the net vector and magnitude for the frame by adding corresponding vectors and magnitudes for each bin (e.g., yaw bins, pitch bins) in the vector-based representation of the frame. In some embodiments, the net magnitude is normalized, for example, as a number between 0 and 1. In some embodiments, the net vector and normalized magnitude can reflect an amount of displacement, or offset, that is expected from a viewer (e.g., camera, computing device, etc.) when viewing the frame.
  • a viewer e.g., camera, computing device, etc.
  • the projection module 308 can be configured to enhance the frame.
  • the projection module 308 implements view-based projection using an offset technique.
  • the offset technique can be applied to enhance different regions of the frame based on the amount of displacement that is expected in view of the net vector and normalized magnitude determined by the vectorization module 306. For example, in such embodiments, a spherical representation of the frame being enhanced can be projected.
  • the projection module 308 can then correlate the net vector and normalized magnitude to an amount (or proportion) of pixels to allocate to a region in the frame that corresponds to the net vector and normalized. More details describing pixel allocation are described below in reference to FIGURES 4D-4E .
  • the projection module 308 can apply such content enhancement techniques to output an enhanced version of the frame 412 in a barrel layout (or barrel projection), as described below in reference to FIGURES 4F-4G . Many variations are possible.
  • FIGURE 4A illustrates an example frame 412 of a content item which includes a first point of interest 414 and a second point of interest 416.
  • the frame 412 can be provided to the saliency prediction model to determine salient points of interest.
  • the saliency prediction model may determine that the second point of interest 416 is a salient point of interest that is likely to be of interest to users viewing the content item.
  • the second point of interest 416 can be enhanced visually during presentation of the content item.
  • a saliency map corresponding to the frame 412 can be determined by the saliency prediction model.
  • the saliency map indicates a respective saliency value for each pixel in the frame 412.
  • the saliency value for a pixel can provide a measure of saliency associated with that pixel.
  • a vector-based representation 422 of the frame 412 can be determined from the saliency map, as illustrated in the example of FIGURE 4B .
  • the saliency map can be segmented into a set of yaw bins 424 and a set of pitch bins 426.
  • each bin 428 can be associated with its own corresponding vector 430 and magnitude 432 (e.g., saliency value).
  • the set of yaw bins can each be associated with a pre-defined vector direction that ranges from negative 180 degrees to positive 180 degrees.
  • a net vector and magnitude 434 can be determined based on the vector-based representation 422, as illustrated in the example of FIGURE 4C .
  • the net vector and magnitude 434 for the frame 412 can be determined by adding corresponding vectors and magnitudes for each bin (e.g., yaw bins 424, pitch bins 426) in the vector-based representation 422.
  • the net magnitude is normalized.
  • an offset technique can be applied to enhance salient regions of the frame 412 based on the net vector and normalized magnitude.
  • a spherical representation 440 of the frame 412 being enhanced can be determined, as illustrated in the example of FIGURE 4D .
  • the spherical representation 440 can be divided into regions based on a pre-defined number of rays 444 that emanate from a virtual camera 442 positioned at the center of the spherical representation 440.
  • an amount (or proportion) of pixels to be allocated to a region (e.g., the first point of interest 414 or the second point of interest 416) in the spherical representation 440 is determined based at least in part on a number of rays needed to capture (or fully view) that region. For example, when the virtual camera 442 is positioned at the center of the spherical representation 440, three rays are needed to capture the first point of interest 414 and three rays are also needed to capture the second point of interest 416, as illustrated in the example of FIGURE 4D . As a result, both the first point of interest 414 and the second point of interest 416 are allocated the same (or similar) amount of pixels.
  • the net vector and normalized magnitude for the frame 412 can be used to determine an offset for the virtual camera 442.
  • the offset can represent a direction and magnitude the virtual camera 442 is expected to move to view some region in the spherical representation 440.
  • the offset i.e., net vector and normalized magnitude
  • the number of rays needed to capture the first point of interest 414 is now 1 while the number of rays needed to capture the second point of interest 416 is now 5.
  • allocation (or re-allocation) of pixels to different regions of a frame can be performed dynamically without having to increase a total pixel count associated with the frame.
  • FIGURE 4F illustrates an example barrel layout (or barrel projection) 450 representation of the frame 412.
  • the frame 412 can be represented as a barrel layout in which a top portion 452 of the frame 412 (e.g., top 25 percent) and a bottom portion 454 of the frame 412 (e.g., bottom 25 percent) is formatted in an equirectangular layout.
  • the remaining middle portion 456 of the frame 412 e.g., the middle 90 degrees of the scene
  • regions in the portion 456 can be biased (e.g., stretched) to increase pixel density in those regions.
  • regions in the portion 456 can be biased (e.g., reduced, shortened) to decrease pixel density in those regions.
  • the offset i.e., net vector and normalized magnitude
  • the offset indicates that a pixel density for a region corresponding to the second point of interest 416 should increase while a pixel density for a region corresponding to the first point of interest 414 should decrease.
  • the region corresponding to the first point of interest 414 can be stretched horizontally, as illustrated in the example of FIGURE 4G .
  • the region corresponding to the first point of interest 414 can be shortened horizontally, as also illustrated in the example of FIGURE 4G .
  • the frame 412 can be reconstructed from its barrel projection 450 using generally known environmental mapping techniques.
  • the barrel projection 450 provides are number of advantages. For example, for the same surface area, the barrel projection 450 has higher pixel density in the middle 90 degrees when compared with a cube map. The barrel projection 450 also compresses better than a cube map for the same texture resolution, since the barrel projection 450 reuses a lot of data for movements in the horizontal plane.
  • FIGURE 4H illustrates an example activity diagram 480, according to an embodiment of the present disclosure. It should be appreciated that there can be additional, fewer, or alternative steps performed in similar or alternative orders, or in parallel, within the scope of the various embodiments discussed herein unless otherwise stated.
  • content items to be used for training one or more models are obtained.
  • such content items may include videos (e.g., virtual reality content items, immersive videos, etc.).
  • a virtual reality content item (or immersive video) corresponds to any virtual reality media that encompasses (or surrounds) a viewer (or user).
  • virtual reality content items include spherical videos, half sphere videos (e.g., 180 degree videos), arbitrary partial spheres, 225 degree videos, and 3D 360 videos.
  • Such immersive videos need not be limited to videos that are formatted using a spherical shape but may also be applied to immersive videos formatted using other shapes including, for example, cubes, pyramids, and other shape representations of a video recorded three-dimensional world.
  • respective view tracking data for each of the content items being used to train the models is obtained.
  • view tracking data for a given content item may be collected for each user (or viewer) that accessed the content item.
  • the view tracking data for a user may identify regions that were accessed through the user's viewport during presentation of the content item.
  • Such view tracking data may be collected for each frame corresponding to the content item.
  • heat maps for a given content item may be generated based on view tracking data for the content item, as described above.
  • user-specific heat maps can be generated for a given content item based on the respective view activity of those users.
  • such user-specific heat maps can be combined to generate an aggregated heat map for the content item. This aggregated heat map can indicate which regions in a given frame of the content item were most popular, or interesting, to users that viewed the content item.
  • one or more saliency prediction models can be generated.
  • a general saliency prediction model can be trained using aggregated heat maps that describe user view tracking data for various content items, as described above.
  • this saliency prediction model can be used to predict content (e.g., points of interest) that is likely to be of interest to users during presentation of a content item.
  • content items can be enhanced using view-based projection techniques, as described above. For example, regions in frames of a given content item that correspond to salient points of interest can be allocated more pixels while the remaining portions of the frame can be allocated fewer pixels. Many variations are possible.
  • respective barrel projections can be determined for frames of content items.
  • a barrel projection is determined for each frame of a content item being enhanced. Many variations are possible.
  • FIGURE 5A illustrates an example method 500, according to an embodiment of the present disclosure. It should be appreciated that there can be additional, fewer, or alternative steps performed in similar or alternative orders, or in parallel, within the scope of the various embodiments discussed herein unless otherwise stated.
  • At block 502 at least one frame of a content item is provided to a saliency prediction model, the saliency prediction model being trained to identify salient points of interest that appear in content items.
  • information describing at least a first salient point of interest that appears in the at least one frame is obtained from the saliency prediction model, wherein the first salient point of interest is predicted to be of interest to users accessing the content item.
  • a view-based projection is applied to a region corresponding to the first salient point of interest, wherein the view-based projection enhances a quality in which the region is presented.
  • FIGURE 5B illustrates an example method 550, according to an embodiment of the present disclosure. It should be appreciated that there can be additional, fewer, or alternative steps performed in similar or alternative orders, or in parallel, within the scope of the various embodiments discussed herein unless otherwise stated.
  • At block 552 at least one salient point of interest in a frame of a content item is determined based at least in part on a saliency prediction model, the saliency prediction model being trained to identify salient points of interest that appear in content items.
  • a barrel projection representation for the frame is determined.
  • a view-based projection is applied to the barrel projection representation for the frame. The view-based projection enhances a quality in which a region corresponding to the at least one salient point of interest is presented.
  • various embodiments of the present disclosure there can be many other uses, applications, and/or variations associated with the various embodiments of the present disclosure.
  • user can choose whether or not to opt-in to utilize the disclosed technology.
  • the disclosed technology can also ensure that various privacy settings and preferences are maintained and can prevent private information from being divulged.
  • various embodiments of the present disclosure can learn, improve, and/or be refined overtime.
  • FIGURE 6 illustrates a network diagram of an example system 600 that can be utilized in various scenarios, in accordance with an embodiment of the present disclosure.
  • the system 600 includes one or more user devices 610, one or more external systems 620, a social networking system (or service) 630, and a network 650.
  • the social networking service, provider, and/or system discussed in connection with the embodiments described above may be implemented as the social networking system 630.
  • the embodiment of the system 600, shown by FIGURE 6 includes a single external system 620 and a single user device 610.
  • the system 600 may include more user devices 610 and/or more external systems 620.
  • the social networking system 630 is operated by a social network provider, whereas the external systems 620 are separate from the social networking system 630 in that they may be operated by different entities. In various embodiments, however, the social networking system 630 and the external systems 620 operate in conjunction to provide social networking services to users (or members) of the social networking system 630. In this sense, the social networking system 630 provides a platform or backbone, which other systems, such as external systems 620, may use to provide social networking services and functionalities to users across the Internet.
  • the user device 610 comprises one or more computing devices (or systems) that can receive input from a user and transmit and receive data via the network 650.
  • the user device 610 is a conventional computer system executing, for example, a Microsoft Windows compatible operating system (OS), Apple OS X, and/or a Linux distribution.
  • the user device 610 can be a computing device or a device having computer functionality, such as a smart-phone, a tablet, a personal digital assistant (PDA), a mobile telephone, a laptop computer, a wearable device (e.g., a pair of glasses, a watch, a bracelet, etc.), a camera, an appliance, etc.
  • the user device 610 is configured to communicate via the network 650.
  • the user device 610 can execute an application, for example, a browser application that allows a user of the user device 610 to interact with the social networking system 630.
  • the user device 610 interacts with the social networking system 630 through an application programming interface (API) provided by the native operating system of the user device 610, such as iOS and ANDROID.
  • API application programming interface
  • the user device 610 is configured to communicate with the external system 620 and the social networking system 630 via the network 650, which may comprise any combination of local area and/or wide area networks, using wired and/or wireless communication systems.
  • the network 650 uses standard communications technologies and protocols.
  • the network 650 can include links using technologies such as Ethernet, 802.11, worldwide interoperability for microwave access (WiMAX), 3G, 4G, CDMA, GSM, LTE, digital subscriber line (DSL), etc.
  • the networking protocols used on the network 650 can include multiprotocol label switching (MPLS), transmission control protocol/Internet protocol (TCP/IP), User Datagram Protocol (UDP), hypertext transport protocol (HTTP), simple mail transfer protocol (SMTP), file transfer protocol (FTP), and the like.
  • the data exchanged over the network 650 can be represented using technologies and/or formats including hypertext markup language (HTML) and extensible markup language (XML).
  • all or some links can be encrypted using conventional encryption technologies such as secure sockets layer (SSL), transport layer security (TLS), and Internet Protocol security (IPsec).
  • SSL secure sockets layer
  • TLS transport layer security
  • IPsec Internet Protocol security
  • the user device 610 may display content from the external system 620 and/or from the social networking system 630 by processing a markup language document 614 received from the external system 620 and from the social networking system 630 using a browser application 612.
  • the markup language document 614 identifies content and one or more instructions describing formatting or presentation of the content.
  • the browser application 612 executes the instructions included in the markup language document 614, displays the identified content using the format or presentation described by the markup language document 614.
  • the markup language document 614 includes instructions for generating and displaying a web page having multiple frames that include text and/or image data retrieved from the external system 620 and the social networking system 630.
  • the markup language document 614 comprises a data file including extensible markup language (XML) data, extensible hypertext markup language (XHTML) data, or other markup language data. Additionally, the markup language document 614 may include JavaScript Object Notation (JSON) data, JSON with padding (JSONP), and JavaScript data to facilitate data-interchange between the external system 620 and the user device 610.
  • JSON JavaScript Object Notation
  • JSONP JSON with padding
  • JavaScript data to facilitate data-interchange between the external system 620 and the user device 610.
  • the browser application 612 on the user device 610 may use a JavaScript compiler to decode the markup language document 614.
  • the markup language document 614 may also include, or link to, applications or application frameworks such as FLASHTM or UnityTM applications, the SilverlightTM application framework, etc.
  • the user device 610 also includes one or more cookies 616 including data indicating whether a user of the user device 610 is logged into the social networking system 630, which may enable modification of the data communicated from the social networking system 630 to the user device 610.
  • the external system 620 includes one or more web servers that include one or more web pages 622a, 622b, which are communicated to the user device 610 using the network 650.
  • the external system 620 is separate from the social networking system 630.
  • the external system 620 is associated with a first domain, while the social networking system 630 is associated with a separate social networking domain.
  • Web pages 622a, 622b, included in the external system 620 comprise markup language documents 614 identifying content and including instructions specifying formatting or presentation of the identified content. As discussed previously, it should be appreciated that there can be many variations or other possibilities.
  • the social networking system 630 includes one or more computing devices for a social network, including a plurality of users, and providing users of the social network with the ability to communicate and interact with other users of the social network.
  • the social network can be represented by a graph, i.e., a data structure including edges and nodes. Other data structures can also be used to represent the social network, including but not limited to databases, objects, classes, meta elements, files, or any other data structure.
  • the social networking system 630 may be administered, managed, or controlled by an operator.
  • the operator of the social networking system 630 may be a human being, an automated application, or a series of applications for managing content, regulating policies, and collecting usage metrics within the social networking system 630. Any type of operator may be used.
  • Connections may be added explicitly by a user or may be automatically created by the social networking system 630 based on common characteristics of the users (e.g., users who are alumni of the same educational institution). For example, a first user specifically selects a particular other user to be a friend. Connections in the social networking system 630 are usually in both directions, but need not be, so the terms "user” and "friend” depend on the frame of reference. Connections between users of the social networking system 630 are usually bilateral ("two-way"), or “mutual,” but connections may also be unilateral, or "one-way.” For example, if Bob and Joe are both users of the social networking system 630 and connected to each other, Bob and Joe are each other's connections.
  • a unilateral connection may be established.
  • the connection between users may be a direct connection; however, some embodiments of the social networking system 630 allow the connection to be indirect via one or more levels of connections or degrees of separation.
  • the social networking system 630 provides users with the ability to take actions on various types of items supported by the social networking system 630. These items may include groups or networks (i.e., social networks of people, entities, and concepts) to which users of the social networking system 630 may belong, events or calendar entries in which a user might be interested, computer-based applications that a user may use via the social networking system 630, transactions that allow users to buy or sell items via services provided by or through the social networking system 630, and interactions with advertisements that a user may perform on or off the social networking system 630. These are just a few examples of the items upon which a user may act on the social networking system 630, and many others are possible. A user may interact with anything that is capable of being represented in the social networking system 630 or in the external system 620, separate from the social networking system 630, or coupled to the social networking system 630 via the network 650.
  • items may include groups or networks (i.e., social networks of people, entities, and concepts) to which users of the social networking system 630 may
  • the social networking system 630 is also capable of linking a variety of entities.
  • the social networking system 630 enables users to interact with each other as well as external systems 620 or other entities through an API, a web service, or other communication channels.
  • the social networking system 630 generates and maintains the "social graph" comprising a plurality of nodes interconnected by a plurality of edges. Each node in the social graph may represent an entity that can act on another node and/or that can be acted on by another node.
  • the social graph may include various types of nodes. Examples of types of nodes include users, non-person entities, content items, web pages, groups, activities, messages, concepts, and any other things that can be represented by an object in the social networking system 630.
  • An edge between two nodes in the social graph may represent a particular kind of connection, or association, between the two nodes, which may result from node relationships or from an action that was performed by one of the nodes on the other node.
  • the edges between nodes can be weighted.
  • the weight of an edge can represent an attribute associated with the edge, such as a strength of the connection or association between nodes.
  • Different types of edges can be provided with different weights. For example, an edge created when one user "likes" another user may be given one weight, while an edge created when a user befriends another user may be given a different weight.
  • an edge in the social graph is generated connecting a node representing the first user and a second node representing the second user.
  • the social networking system 630 modifies edges connecting the various nodes to reflect the relationships and interactions.
  • the social networking system 630 also includes user-generated content, which enhances a user's interactions with the social networking system 630.
  • User-generated content may include anything a user can add, up-load, send, or "post" to the social networking system 630.
  • Posts may include data such as status updates or other textual data, location information, images such as photos, videos, links, music or other similar data and/or media.
  • Content may also be added to the social networking system 630 by a third party.
  • Content "items" are represented as objects in the social networking system 630. In this way, users of the social networking system 630 are encouraged to communicate with each other by posting text and content items of various types of media through various communication channels. Such communication increases the interaction of users with each other and increases the frequency with which users interact with the social networking system 630.
  • the social networking system 630 includes a web server 632, an API request server 634, a user profile store 636, a connection store 638, an action logger 640, an activity log 642, and an authorization server 644.
  • the social networking system 630 may include additional, fewer, or different components for various applications.
  • Other components such as network interfaces, security mechanisms, load balancers, failover servers, management and network operations consoles, and the like are not shown so as to not obscure the details of the system.
  • the user profile store 636 maintains information about user accounts, including biographic, demographic, and other types of descriptive information, such as work experience, educational history, hobbies or preferences, location, and the like that has been declared by users or inferred by the social networking system 630. This information is stored in the user profile store 636 such that each user is uniquely identified.
  • the social networking system 630 also stores data describing one or more connections between different users in the connection store 638. The connection information may indicate users who have similar or common work experience, group memberships, hobbies, or educational history. Additionally, the social networking system 630 includes user-defined connections between different users, allowing users to specify their relationships with other users.
  • connection-defined connections allow users to generate relationships with other users that parallel the users' real-life relationships, such as friends, co-workers, partners, and so forth. Users may select from predefined types of connections, or define their own connection types as needed. Connections with other nodes in the social networking system 630, such as non-person entities, buckets, cluster centers, images, interests, pages, external systems, concepts, and the like are also stored in the connection store 638.
  • the social networking system 630 maintains data about objects with which a user may interact. To maintain this data, the user profile store 636 and the connection store 638 store instances of the corresponding type of objects maintained by the social networking system 630. Each object type has information fields that are suitable for storing information appropriate to the type of object. For example, the user profile store 636 contains data structures with fields suitable for describing a user's account and information related to a user's account. When a new object of a particular type is created, the social networking system 630 initializes a new data structure of the corresponding type, assigns a unique object identifier to it, and begins to add data to the object as needed.
  • the social networking system 630 When a user becomes a user of the social networking system 630, the social networking system 630 generates a new instance of a user profile in the user profile store 636, assigns a unique identifier to the user account, and begins to populate the fields of the user account with information provided by the user.
  • the connection store 638 includes data structures suitable for describing a user's connections to other users, connections to external systems 620 or connections to other entities.
  • the connection store 638 may also associate a connection type with a user's connections, which may be used in conjunction with the user's privacy setting to regulate access to information about the user.
  • the user profile store 636 and the connection store 638 may be implemented as a federated database.
  • Data stored in the connection store 638, the user profile store 636, and the activity log 642 enables the social networking system 630 to generate the social graph that uses nodes to identify various objects and edges connecting nodes to identify relationships between different objects. For example, if a first user establishes a connection with a second user in the social networking system 630, user accounts of the first user and the second user from the user profile store 636 may act as nodes in the social graph.
  • the connection between the first user and the second user stored by the connection store 638 is an edge between the nodes associated with the first user and the second user.
  • the second user may then send the first user a message within the social networking system 630.
  • the action of sending the message is another edge between the two nodes in the social graph representing the first user and the second user. Additionally, the message itself may be identified and included in the social graph as another node connected to the nodes representing the first user and the second user.
  • a first user may tag a second user in an image that is maintained by the social networking system 630 (or, alternatively, in an image maintained by another system outside of the social networking system 630).
  • the image may itself be represented as a node in the social networking system 630.
  • This tagging action may create edges between the first user and the second user as well as create an edge between each of the users and the image, which is also a node in the social graph.
  • the user and the event are nodes obtained from the user profile store 636, where the attendance of the event is an edge between the nodes that may be retrieved from the activity log 642.
  • the social networking system 630 includes data describing many different types of objects and the interactions and connections among those objects, providing a rich source of socially relevant information.
  • the web server 632 links the social networking system 630 to one or more user devices 610 and/or one or more external systems 620 via the network 650.
  • the web server 632 serves web pages, as well as other web-related content, such as Java, JavaScript, Flash, XML, and so forth.
  • the web server 632 may include a mail server or other messaging functionality for receiving and routing messages between the social networking system 630 and one or more user devices 610.
  • the messages can be instant messages, queued messages (e.g., email), text and SMS messages, or any other suitable messaging format.
  • the API request server 634 allows one or more external systems 620 and user devices 610 to call access information from the social networking system 630 by calling one or more API functions.
  • the API request server 634 may also allow external systems 620 to send information to the social networking system 630 by calling APIs.
  • the external system 620 sends an API request to the social networking system 630 via the network 650, and the API request server 634 receives the API request.
  • the API request server 634 processes the request by calling an API associated with the API request to generate an appropriate response, which the API request server 634 communicates to the external system 620 via the network 650.
  • the API request server 634 collects data associated with a user, such as the user's connections that have logged into the external system 620, and communicates the collected data to the external system 620.
  • the user device 610 communicates with the social networking system 630 via APIs in the same manner as external systems 620.
  • the action logger 640 is capable of receiving communications from the web server 632 about user actions on and/or off the social networking system 630.
  • the action logger 640 populates the activity log 642 with information about user actions, enabling the social networking system 630 to discover various actions taken by its users within the social networking system 630 and outside of the social networking system 630. Any action that a particular user takes with respect to another node on the social networking system 630 may be associated with each user's account, through information maintained in the activity log 642 or in a similar database or other data repository.
  • Examples of actions taken by a user within the social networking system 630 that are identified and stored may include, for example, adding a connection to another user, sending a message to another user, reading a message from another user, viewing content associated with another user, attending an event posted by another user, posting an image, attempting to post an image, or other actions interacting with another user or another object.
  • the social networking system 630 maintains the activity log 642 as a database of entries.
  • an action log 642 may be referred to as an action log.
  • user actions may be associated with concepts and actions that occur within an entity outside of the social networking system 630, such as an external system 620 that is separate from the social networking system 630.
  • the action logger 640 may receive data describing a user's interaction with an external system 620 from the web server 632.
  • the external system 620 reports a user's interaction according to structured actions and objects in the social graph.
  • actions where a user interacts with an external system 620 include a user expressing an interest in an external system 620 or another entity, a user posting a comment to the social networking system 630 that discusses an external system 620 or a web page 622a within the external system 620, a user posting to the social networking system 630 a Uniform Resource Locator (URL) or other identifier associated with an external system 620, a user attending an event associated with an external system 620, or any other action by a user that is related to an external system 620.
  • the activity log 642 may include actions describing interactions between a user of the social networking system 630 and an external system 620 that is separate from the social networking system 630.
  • the authorization server 644 enforces one or more privacy settings of the users of the social networking system 630.
  • a privacy setting of a user determines how particular information associated with a user can be shared.
  • the privacy setting comprises the specification of particular information associated with a user and the specification of the entity or entities with whom the information can be shared. Examples of entities with which information can be shared may include other users, applications, external systems 620, or any entity that can potentially access the information.
  • the information that can be shared by a user comprises user account information, such as profile photos, phone numbers associated with the user, user's connections, actions taken by the user such as adding a connection, changing user profile information, and the like.
  • the privacy setting specification may be provided at different levels of granularity.
  • the privacy setting may identify specific information to be shared with other users; the privacy setting identifies a work phone number or a specific set of related information, such as, personal information including profile photo, home phone number, and status.
  • the privacy setting may apply to all the information associated with the user.
  • the specification of the set of entities that can access particular information can also be specified at various levels of granularity.
  • Various sets of entities with which information can be shared may include, for example, all friends of the user, all friends of friends, all applications, or all external systems 620.
  • One embodiment allows the specification of the set of entities to comprise an enumeration of entities.
  • the user may provide a list of external systems 620 that are allowed to access certain information.
  • Another embodiment allows the specification to comprise a set of entities along with exceptions that are not allowed to access the information.
  • a user may allow all external systems 620 to access the user's work information, but specify a list of external systems 620 that are not allowed to access the work information.
  • Certain embodiments call the list of exceptions that are not allowed to access certain information a "block list".
  • External systems 620 belonging to a block list specified by a user are blocked from accessing the information specified in the privacy setting.
  • Various combinations of granularity of specification of information, and granularity of specification of entities, with which information is shared are possible. For example, all personal information may be shared with friends whereas all work information may be shared with friends of friends.
  • the authorization server 644 contains logic to determine if certain information associated with a user can be accessed by a user's friends, external systems 620, and/or other applications and entities.
  • the external system 620 may need authorization from the authorization server 644 to access the user's more private and sensitive information, such as the user's work phone number. Based on the user's privacy settings, the authorization server 644 determines if another user, the external system 620, an application, or another entity is allowed to access information associated with the user, including information about actions taken by the user.
  • the social networking system 630 can include a content provider module 646.
  • the content provider module 646 can, for example, be implemented as the content provider module 102 of FIGURE 1 .
  • the content provider module 646, or some of its features can be implemented in a computing device, e.g., the user device 610.
  • the user device 610 can include a client module 618.
  • the client module 618 can, for example, be implemented as the client module 114 of FIGURE 1 .
  • the network 650 can, for example, be implemented as the network 150 of FIGURE 1 . As discussed previously, it should be appreciated that there can be many variations or other possibilities.
  • FIGURE 7 illustrates an example of a computer system 700 that may be used to implement one or more of the embodiments described herein in accordance with an embodiment of the invention.
  • the computer system 700 includes sets of instructions for causing the computer system 700 to perform the processes and features discussed herein.
  • the computer system 700 may be connected (e.g., networked) to other machines. In a networked deployment, the computer system 700 may operate in the capacity of a server machine or a client machine in a client-server network environment, or as a peer machine in a peer-to-peer (or distributed) network environment.
  • the computer system 700 may be the social networking system 630, the user device 610, and the external system 720, or a component thereof. In an embodiment of the invention, the computer system 700 may be one server among many that constitutes all or part of the social networking system 630.
  • the computer system 700 includes a processor 702, a cache 704, and one or more executable modules and drivers, stored on a computer-readable medium, directed to the processes and features described herein. Additionally, the computer system 700 includes a high performance input/output (I/O) bus 706 and a standard I/O bus 708.
  • a host bridge 710 couples processor 702 to high performance I/O bus 706, whereas I/O bus bridge 712 couples the two buses 706 and 708 to each other.
  • a system memory 714 and one or more network interfaces 716 couple to high performance I/O bus 706.
  • the computer system 700 may further include video memory and a display device coupled to the video memory (not shown). Mass storage 718 and I/O ports 720 couple to the standard I/O bus 708.
  • the computer system 700 may optionally include a keyboard and pointing device, a display device, or other input/output devices (not shown) coupled to the standard I/O bus 708.
  • a keyboard and pointing device such as a keyboard and pointing device
  • a display device such as a touch screen
  • input/output devices not shown
  • Collectively, these elements are intended to represent a broad category of computer hardware systems, including but not limited to computer systems based on the x86-compatible processors manufactured by Intel Corporation of Santa Clara, California, and the x86-compatible processors manufactured by Advanced Micro Devices (AMD), Inc., of Sunnyvale, California, as well as any other suitable processor.
  • AMD Advanced Micro Devices
  • An operating system manages and controls the operation of the computer system 700, including the input and output of data to and from software applications (not shown).
  • the operating system provides an interface between the software applications being executed on the system and the hardware components of the system.
  • Any suitable operating system may be used, such as the LINUX Operating System, the Apple Macintosh Operating System, available from Apple Computer Inc. of Cupertino, California, UNIX operating systems, Microsoft@ Windows@ operating systems, BSD operating systems, and the like. Other implementations are possible.
  • the network interface 716 provides communication between the computer system 700 and any of a wide range of networks, such as an Ethernet (e.g., IEEE 802.3) network, a backplane, etc.
  • the mass storage 718 provides permanent storage for the data and programming instructions to perform the above-described processes and features implemented by the respective computing systems identified above, whereas the system memory 714 (e.g., DRAM) provides temporary storage for the data and programming instructions when executed by the processor 702.
  • the I/O ports 720 may be one or more serial and/or parallel communication ports that provide communication between additional peripheral devices, which may be coupled to the computer system 700.
  • the computer system 700 may include a variety of system architectures, and various components of the computer system 700 may be rearranged.
  • the cache 704 may be on-chip with processor 702.
  • the cache 704 and the processor 702 may be packed together as a "processor module", with processor 702 being referred to as the "processor core".
  • certain embodiments of the invention may neither require nor include all of the above components.
  • peripheral devices coupled to the standard I/O bus 708 may couple to the high performance I/O bus 706.
  • only a single bus may exist, with the components of the computer system 700 being coupled to the single bus.
  • the computer system 700 may include additional components, such as additional processors, storage devices, or memories.
  • the processes and features described herein may be implemented as part of an operating system or a specific application, component, program, object, module, or series of instructions referred to as "programs".
  • programs For example, one or more programs may be used to execute specific processes described herein.
  • the programs typically comprise one or more instructions in various memory and storage devices in the computer system 700 that, when read and executed by one or more processors, cause the computer system 700 to perform operations to execute the processes and features described herein.
  • the processes and features described herein may be implemented in software, firmware, hardware (e.g., an application specific integrated circuit), or any combination thereof.
  • the processes and features described herein are implemented as a series of executable modules run by the computer system 700, individually or collectively in a distributed computing environment.
  • the foregoing modules may be realized by hardware, executable modules stored on a computer-readable medium (or machine-readable medium), or a combination of both.
  • the modules may comprise a plurality or series of instructions to be executed by a processor in a hardware system, such as the processor 702.
  • the series of instructions may be stored on a storage device, such as the mass storage 718.
  • the series of instructions can be stored on any suitable computer readable storage medium.
  • the series of instructions need not be stored locally, and could be received from a remote storage device, such as a server on a network, via the network interface 716.
  • the instructions are copied from the storage device, such as the mass storage 718, into the system memory 714 and then accessed and executed by the processor 702.
  • a module or modules can be executed by a processor or multiple processors in one or multiple locations, such as multiple servers in a parallel processing environment.
  • Examples of computer-readable media include, but are not limited to, recordable type media such as volatile and non-volatile memory devices; solid state memories; floppy and other removable disks; hard disk drives; magnetic media; optical disks (e.g., Compact Disk Read-Only Memory (CD ROMS), Digital Versatile Disks (DVDs)); other similar non-transitory (or transitory), tangible (or non-tangible) storage medium; or any type of medium suitable for storing, encoding, or carrying a series of instructions for execution by the computer system 700 to perform any one or more of the processes and features described herein.
  • recordable type media such as volatile and non-volatile memory devices; solid state memories; floppy and other removable disks; hard disk drives; magnetic media; optical disks (e.g., Compact Disk Read-Only Memory (CD ROMS), Digital Versatile Disks (DVDs)); other similar non-transitory (or transitory), tangible (or non-tangible) storage medium; or any type
  • references in this specification to "one embodiment”, “an embodiment”, “other embodiments”, “one series of embodiments”, “some embodiments”, “various embodiments”, or the like means that a particular feature, design, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the disclosure.
  • the appearances of, for example, the phrase “in one embodiment” or “in an embodiment” in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.
  • various features are described, which may be variously combined and included in some embodiments, but also variously omitted in other embodiments.
  • various features are described that may be preferences or requirements for some embodiments, but not other embodiments.

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Claims (12)

  1. Un procédé implémenté par ordinateur comprenant :
    la détermination (552), par un système informatique, d'une carte de saillance d'une image d'un élément de contenu sur la base au moins en partie d'un modèle de prédiction de saillance (486), le modèle de prédiction de saillance étant entraîné pour identifier des points d'intérêt saillants (416) qui apparaissent dans des éléments de contenu ;
    la détermination (554), par le système informatique, d'une représentation par projection en barillet pour l'image ; et
    l'application (556), par le système informatique, d'une projection basée sur la vue à la représentation par projection en barillet pour l'image, où la projection basée sur la vue améliore une qualité en matière de densité de pixels avec laquelle une région d'au moins un point d'intérêt saillant dans la carte de saillance est présentée ;
    où l'image (412) est représentée par une disposition en barillet comprenant une portion supérieure (452), une portion inférieure (454) et une portion centrale (456) de l'image (412), où les portions supérieure (452) et inférieure (454) sont formatées en une disposition équirectangulaire, où, pour l'application de la projection basée sur la vue,
    une première région dans la portion centrale (456) est étirée horizontalement afin d'augmenter la densité de pixels, où une ou plusieurs deuxièmes régions dans la portion centrale (456) sont raccourcies horizontalement afin de réduire la densité de pixels dans ces régions,
    le procédé comprenant qui plus est :
    la détermination d'une représentation vectorielle de la carte de saillance de l'image par segmentation de la carte de saillance en un ensemble de cases en lacet et un ensemble de cases en tangage, où l'ensemble de cases en lacet est associé à une direction de vecteur prédéfinie qui est comprise dans l'intervalle allant de moins 180 degrés à plus 180 degrés, et où l'ensemble de cases en tangage est associé à une direction de vecteur prédéfinie qui est comprise dans l'intervalle allant de moins 180 degrés à plus 180 degrés ;
    la détermination d'un vecteur et d'une amplitude normalisée nets par addition des vecteurs et des amplitudes correspondants pour chaque case dans la représentation vectorielle de la carte de saillance, où le vecteur et l'amplitude normalisée nets reflètent une quantité de décalage qui est attendue d'un observateur lorsqu'il observe l'image ; et
    la détermination d'un décalage pour l'image (412) sur la base desdits vecteur et amplitude normalisée nets ; et
    l'augmentation d'une densité de pixels pour une région correspondant audit premier point d'intérêt (416) tout en réduisant une densité de pixels pour une région correspondant à un deuxième point d'intérêt (414) comme indiqué par le décalage.
  2. Le procédé mis en œuvre par ordinateur de la revendication 1, où la portion centrale de l'image représente les 90 degrés centraux d'une scène représentée dans l'image.
  3. Un système comprenant :
    au moins un processeur ; et
    une mémoire stockant des instructions qui, lorsqu'elles sont exécutées par l'au moins un processeur, amènent le système à effectuer :
    la détermination (552) d'une carte de saillance d'une image d'un élément de contenu sur la base au moins en partie d'un modèle de prédiction de saillance (486), le modèle de prédiction de saillance étant entraîné pour identifier des points d'intérêt saillants (416) qui apparaissent dans des éléments de contenu ;
    la détermination (554) d'une représentation par projection en barillet pour l'image ; et
    l'application (556) d'une projection basée sur la vue à la représentation par projection en barillet pour l'image, où la projection basée sur la vue améliore une qualité en matière de densité de pixels avec laquelle une région d'au moins un point d'intérêt saillant dans la carte de saillance est présentée ;
    où l'image (412) est représentée par une disposition en barillet comprenant une portion supérieure (452), une portion inférieure (454), et une portion centrale (456) de l'image (412), où les portions supérieure (452) et inférieure (454) sont formatées en une disposition équirectangulaire, où, pour l'application de la projection basée sur la vue, une première région dans la portion centrale (456) est étirée horizontalement afin d'augmenter la densité de pixels, où une ou plusieurs deuxièmes régions dans la portion centrale (456) sont raccourcies horizontalement afin de réduire la densité de pixels dans ces régions,
    la mémoire stockant en outre des instructions qui, lorsqu'elles sont exécutées par l'au moins un processeur, amènent le système à :
    déterminer une représentation vectorielle de la carte de saillance de l'image par segmentation de la carte de saillance en un ensemble de cases en lacet et un ensemble de cases en tangage, où l'ensemble de cases en lacet est associé à une direction de vecteur prédéfinie qui est comprise dans l'intervalle allant de moins 180 degrés à plus 180 degrés, et où l'ensemble de cases en tangage est associé à une direction de vecteur prédéfinie qui est comprise dans l'intervalle allant de moins 180 degrés à plus 180 degrés ;
    déterminer un vecteur et une amplitude normalisée nets par addition des vecteurs et des amplitudes correspondants pour chaque case dans la représentation vectorielle de la carte de saillance, où le vecteur et l'amplitude normalisée nets reflètent une quantité de décalage qui est attendue d'un observateur lorsqu'il observe l'image ; et
    déterminer un décalage pour l'image (412) sur la base desdits vecteur et amplitude normalisée nets ; et
    augmenter une densité de pixels pour une région correspondant audit premier point d'intérêt (416) tout en réduisant une densité de pixels pour une région correspondant à un deuxième point d'intérêt (414) comme indiqué par ledit décalage.
  4. Le système de la revendication 3, où la projection en barillet inclut des faces distinctes correspondant à une portion supérieure de l'image, une portion inférieure de l'image, et une portion centrale de l'image.
  5. Le système de la revendication 4, où la portion centrale de l'image représente les 90 degrés centraux d'une scène représentée dans l'image.
  6. Le système de la revendication 4 ou de la revendication 5, où l'application de la projection basée sur la vue à la représentation par projection en barillet de l'image amène en outre le système à effectuer :
    l'altération d'une région dans la portion centrale de l'image qui correspond à l'au moins un point d'intérêt saillant, où la région est altérée afin d'augmenter une densité de pixels associée à la région.
  7. Le système de n'importe lesquelles des revendications 3 à 6, où l'application de la projection basée sur la vue à la représentation par projection en barillet de l'image amène en outre le système à effectuer :
    l'altération d'une ou de plusieurs autres régions dans la portion centrale de l'image, où les une ou plusieurs régions sont altérées afin de réduire des densités de pixels respectives associées aux une ou plusieurs régions.
  8. Un support de stockage lisible par ordinateur non transitoire incluant des instructions qui, lorsqu'elles sont exécutées par au moins un processeur d'un système informatique, amènent le système informatique à effectuer un procédé comprenant :
    la détermination (552) d'une carte de saillance d'une image d'un élément de contenu sur la base au moins en partie d'un modèle de prédiction de saillance (486), le modèle de prédiction de saillance étant entraîné pour identifier des points d'intérêt saillants (416) qui apparaissent dans des éléments de contenu ;
    la détermination (554) d'une représentation par projection en barillet pour l'image ; et
    l'application (556) d'une projection basée sur la vue à la représentation par projection en barillet pour l'image, où la projection basée sur la vue améliore une qualité en matière de densité de pixels avec laquelle une région d'au moins un point d'intérêt saillant dans la carte de saillance est présentée ;
    où l'image (412) est représentée par une disposition en barillet comprenant une portion supérieure (452), une portion inférieure (454) et une portion centrale (456) de l'image (412), où les portions supérieure (452) et inférieure (454) sont formatées en une disposition équirectangulaire, où, pour l'application de la projection basée sur la vue,
    une première région dans la portion centrale (456) est étirée horizontalement afin d'augmenter la densité de pixels, où une ou plusieurs deuxièmes régions dans la portion centrale (456) sont raccourcies horizontalement afin de réduire la densité de pixels dans ces régions,
    le support de stockage lisible par ordinateur non transitoire incluant en outre des instructions qui, lorsqu'elles sont exécutées par l'au moins un processeur d'un système informatique, amènent le système informatique à :
    déterminer une représentation vectorielle de la carte de saillance de l'image par segmentation de la carte de saillance en un ensemble de cases en lacet et un ensemble de cases en tangage, où l'ensemble de cases en lacet est associé à une direction de vecteur prédéfinie qui est comprise dans l'intervalle allant de moins 180 degrés à plus 180 degrés, et où l'ensemble de cases en tangage est associé à une direction de vecteur prédéfinie qui est comprise dans l'intervalle allant de moins 180 degrés à plus 180 degrés ;
    déterminer un vecteur et une amplitude normalisée nets par addition des vecteurs et des amplitudes correspondants pour chaque case dans la représentation vectorielle de la carte de saillance, où le vecteur et l'amplitude normalisée nets reflètent une quantité de décalage qui est attendue d'un observateur lorsqu'il observe l'image ; et
    déterminer un décalage pour l'image (412) lesdits vecteur et amplitude normalisée nets ;
    augmenter une densité de pixels pour une région correspondant audit premier point d'intérêt (416) tout en réduisant une densité de pixels pour une région correspondant à un deuxième point d'intérêt (414) comme indiqué par ledit décalage.
  9. Le support de stockage lisible par ordinateur non transitoire de la revendication 8, où la projection en barillet inclut des faces distinctes correspondant à une portion supérieure de l'image, une portion inférieure de l'image, et une portion centrale de l'image.
  10. Le support de stockage lisible par ordinateur non transitoire de la revendication 9, où la portion centrale de l'image représente les 90 degrés centraux d'une scène représentée dans l'image.
  11. Le support de stockage lisible par ordinateur non transitoire de la revendication 9 ou de la revendication 10, où l'application de la projection basée sur la vue à la représentation par projection en barillet de l'image amène en outre le système informatique à effectuer :
    l'altération d'une région dans la portion centrale de l'image qui correspond à l'au moins un point d'intérêt saillant, où la région est altérée afin d'augmenter une densité de pixels associée à la région.
  12. Le support de stockage lisible par ordinateur non transitoire de n'importe lesquelles des revendications 8 à 11, où l'application de la projection basée sur la vue à la représentation par projection en barillet de l'image amène en outre le système à effectuer : l'altération d'une ou de plusieurs autres régions dans la portion centrale de l'image, où les une ou plusieurs régions sont altérées afin de réduire des densités de pixels respectives associées aux une ou plusieurs régions.
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